Cancer involves histological changes in tissue, which is of primary importance in pathological diagnosis and research. Automated histological analysis requires ability to computationally separate pathological alterations from normal tissue with all its variables. On the other hand, understanding connections between genetic alterations and histological attributes requires development of enhanced analysis methods suitable also for small sample sizes. Here, we set out to develop computational methods for early detection and distinction of prostate cancer-related pathological alterations. We use analysis of features from HE stained histological images of normal mouse prostate epithelium, distinguishing the descriptors for variability between ve...
Abstract: Animal models of prostate cancer have been limited in number and in relevance to the human...
Genetically modified rodent models provide a platform to dissect the complex and multifactorial mech...
In this study, we extracted prostate cell-specific gene sets (metagenes) to define the epithelial di...
Prostatic intraepithelial neoplasia (PIN) represents premalignant tissue involving epithelial growth...
Simple Summary Prostate cancer has very varied appearances when examined under the microscope, and i...
The Pathological Classification of Prostate Lesions in Genetically Engineered Mice (GEM) is the resu...
Prostate cancer is consistently the most frequently diagnosed cancer in American males as well as th...
<p>Histopathological analysis (most common lesion) of individual prostate lobes in 8-, 12-, 16-, and...
Prostate cancer is relatively unique to man. There is no naturally occurring prostate cancer in the ...
Histological changes in tissue are of primary importance in pathological research and diagnosis. Aut...
Objectives: Mouse models of prostate cancer are used to test the contribution of individual genes to...
Every tumour is unique and characterised by its genetic, epigenetic, phenotypic, and morphological s...
Genetically engineered mouse models have become fundamental tools in the basic and translational res...
A key issue in cancer biology is whether oncogenic transformation of different cell types of origin ...
Abstract: Animal models of prostate cancer have been limited in number and in relevance to the human...
Genetically modified rodent models provide a platform to dissect the complex and multifactorial mech...
In this study, we extracted prostate cell-specific gene sets (metagenes) to define the epithelial di...
Prostatic intraepithelial neoplasia (PIN) represents premalignant tissue involving epithelial growth...
Simple Summary Prostate cancer has very varied appearances when examined under the microscope, and i...
The Pathological Classification of Prostate Lesions in Genetically Engineered Mice (GEM) is the resu...
Prostate cancer is consistently the most frequently diagnosed cancer in American males as well as th...
<p>Histopathological analysis (most common lesion) of individual prostate lobes in 8-, 12-, 16-, and...
Prostate cancer is relatively unique to man. There is no naturally occurring prostate cancer in the ...
Histological changes in tissue are of primary importance in pathological research and diagnosis. Aut...
Objectives: Mouse models of prostate cancer are used to test the contribution of individual genes to...
Every tumour is unique and characterised by its genetic, epigenetic, phenotypic, and morphological s...
Genetically engineered mouse models have become fundamental tools in the basic and translational res...
A key issue in cancer biology is whether oncogenic transformation of different cell types of origin ...
Abstract: Animal models of prostate cancer have been limited in number and in relevance to the human...
Genetically modified rodent models provide a platform to dissect the complex and multifactorial mech...
In this study, we extracted prostate cell-specific gene sets (metagenes) to define the epithelial di...